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Internet Backplane Protocol: Storage in the Network James S. Plank, Micah Beck, Wael Elwasif, Terry Moore, Martin Swany, Rich Wolski University of Tennessee.

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Presentation on theme: "Internet Backplane Protocol: Storage in the Network James S. Plank, Micah Beck, Wael Elwasif, Terry Moore, Martin Swany, Rich Wolski University of Tennessee."— Presentation transcript:

1 Internet Backplane Protocol: Storage in the Network James S. Plank, Micah Beck, Wael Elwasif, Terry Moore, Martin Swany, Rich Wolski University of Tennessee

2 The End-to-End Model: There is no state management in the Internet. The Main Issue:

3 No State Management: A Good Thing It scales. It has a clean failure model. Resources used in a transient manner. It has worked in the past. It works now. It will work in the future.

4 No State Management: A Bad Thing Performance suffers. End-to-end retransmissions required. Locality cannot be exploited. Data movement cannot be managed. Balkanization of roll-your-own state management techniques.

5 IBP: The Internet Backplane Protocol Managing and using state in the network. Inserting storage in the network so that: –Applications may use it advantageously. –Storage owners do not lose control of their resources. Deep-sixing the End-to-End model! Provides low-level primitives and software for:

6 What is in This Talk The Software Structure of IBP and its API. IBP Applications and Projects Deployment: The Logistical Backbone

7 Our Overarching Buzzword: Logistical Networking Allows an application to manage the trajectory of data in space and time as it travels across the network.

8 The Byte Array: IBP’s Unit of Storage You can think of it as a buffer. You can think of it as a “file”. Append-only semantics. Transience built in.

9 The IBP Client API Can be used by anyone who can talk to the server. Seven procedure calls in three categories: –Allocation (1) –Data transfer (5) –Management (1)

10 Client API: Allocation IBP_allocate(char *host, int maxsize, IBP_attributes attr) Returns a trio of capabilities. –Read / Write / Manage –ASCII Strings (obfuscated) No user-defined file names: –Big flat name space. –No registration required to pass capabilities.

11 Allocation Attributes Permanent or Time-Limited Volatile or Stable Read/Write semantics: –Byte Array –Pipe –Circular Queue

12 Client API: Data Transfer IBP_store(IBP_cap wr_cap, char *data, int size) IBP_read(IBP_cap rd_cap, char *buf, int size, int offset) IBP_remote_store(IBP_cap wr_cap, char *host, int port, int size) IBP_deliver(IBP_cap rd_cap, char *host, int port, int size, int offset) IBP_copy(IBP_cap source, IBP_cap target, int size, int offset) 2-party: 3-party:

13 IBP Client API: Management IBP_manage(IBP_cap man_cap, int cmd, IBP_status info) Allows for resizing byte arrays. Allows for extending/shortening the time limit on time-limited allocations. Manages reference counts on the read/write capabilities. Some simple state probing.

14 IBP Servers Daemons that serve local disk or memory Root access not required. Can specify sliding time limits or revokability. Encourages resource sharing.

15 Logistical Application Strategies The Goal: To improve application performance, resource utilization or application functionality as a result of logistical networking.

16 Strategy #1: Keep data close to the sender Network Weather Service sensor data collection (Wolski). Checkpoint servers (Plank, Agbaria). Sender Receiver IBP Network

17 Strategy #2: Place data close to the receiver IBP Mail (Elwasif). Speculative HTTP Transfer (Beck). NWS Client Data Acquisition (Wolski). Sender ReceiverIBPNetwork

18 Strategy #3: Utilize transient storage throughout “Logistical Session Layer” (Swany). Sender ReceiverIBP

19 Strategy #4: Optimized Producer/Consumer Client S1 S2 Network Client S1 S2 Network IBP Add Logistical Scheduling to NetSolve (The LoCI Team)

20 The Logistical Backbone (L-Bone) Goal: To provide ready storage for experi- mental logistical networking applications. Composed of dedicated and lent resources running IBP. Currently: –5 I2-DSI machines + few machines at Tennessee

21 To Conclude Logistical Networking: Managing data movement and locality on the network. IBP: A key piece of software infrastructure for Logistical Networking. IBP Applications: Demonstrate the effective- ness of IBP and Logistical Networking. L-Bone: Experimental public test facility.

22 You Can Play Too IBP code available –http://www.cs.utk.edu/~plank/IBP L-Bone participation –http://www.icl.utk.edu/ibp Working IBP Applications –IBP Mail (talk later today) –NWS client data acquisition –Checkpointing in NetSolve

23 Internet Backplane Protocol: Storage in the Network James S. Plank, Micah Beck, Wael Elwasif, Terry Moore, Martin Swany, Rich Wolski University of Tennessee

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